<p>In addition to wild relatives, cultivated <i>Triticeae</i> species such as barley can also serve as an excellent gene source to improve the agronomic traits of bread wheat. The Asakaze-Manas addition lines previously developed in Martonvásár exhibit low fertility and unstable inheritance; nonetheless, they could serve as ’bridge materials’ for the incorporation of barley chromatin into the wheat genome. By leveraging the centric breakage-fusion mechanism of unpaired chromosomes and the gametocidal effect of chromosome 2C from <i>Aegilops cylindrica</i>, the 4H and 6H addition lines were used to develop genetically stable translocation genotypes. In situ hybridization and molecular marker analyses were applied to identify the wheat and barley chromosome arms in the compensatory translocations, designated as T6HS.6BL, T6BS.6HL and T4BS.4HL. These results were confirmed by GBS read coverage analysis, which revealed a putative pericentric inversion in the barley chromosome arms involved in the T6HS.6BL and T6BS.6HL. The comparable agronomic performance of the centric fusion lines indicates that these chromosomal rearrangements had minimal, if any, negative impact relative to the parental wheat varieties. The newly developed translocation lines had an increased amount of minerals such as iron, suggesting that they could serve as promising genetic material for the biofortification of hexaploid wheat.</p>

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Introgression of barley chromosome arms 4H and 6H into wheat via Robertsonian translocations: GBS-assisted structural analysis and impact on grain nutrient composition

  • László Ivanizs,
  • Eszter Gaál,
  • Klaudia Kruppa,
  • András Farkas,
  • Péter Mikó,
  • Edina Türkösi,
  • Marianna Rakszegi,
  • Péter Kovács,
  • Balázs Kalapos,
  • Andrea Gulyás,
  • Norbert Hidvégi,
  • Kitti Szőke-Pázsi,
  • Márta Molnár-Láng,
  • Éva Szakács,
  • Mahmoud Said,
  • Jan Bartoš,
  • Tünde Pusztahelyi,
  • Dimitar Douchkov,
  • István Molnár

摘要

In addition to wild relatives, cultivated Triticeae species such as barley can also serve as an excellent gene source to improve the agronomic traits of bread wheat. The Asakaze-Manas addition lines previously developed in Martonvásár exhibit low fertility and unstable inheritance; nonetheless, they could serve as ’bridge materials’ for the incorporation of barley chromatin into the wheat genome. By leveraging the centric breakage-fusion mechanism of unpaired chromosomes and the gametocidal effect of chromosome 2C from Aegilops cylindrica, the 4H and 6H addition lines were used to develop genetically stable translocation genotypes. In situ hybridization and molecular marker analyses were applied to identify the wheat and barley chromosome arms in the compensatory translocations, designated as T6HS.6BL, T6BS.6HL and T4BS.4HL. These results were confirmed by GBS read coverage analysis, which revealed a putative pericentric inversion in the barley chromosome arms involved in the T6HS.6BL and T6BS.6HL. The comparable agronomic performance of the centric fusion lines indicates that these chromosomal rearrangements had minimal, if any, negative impact relative to the parental wheat varieties. The newly developed translocation lines had an increased amount of minerals such as iron, suggesting that they could serve as promising genetic material for the biofortification of hexaploid wheat.